Media Summary: This segment works an example of finding the probability of symbol error and probability of bit error, for a made-up constellation I ... In this segment I provide an overview of forward error correction / error correction Introduces Quantum Signal Processing for single qubit rotations. I also briefly discuss how to use LCU to implement a polynomial ...

Ese 471 Block Encoding And - Detailed Analysis & Overview

This segment works an example of finding the probability of symbol error and probability of bit error, for a made-up constellation I ... In this segment I provide an overview of forward error correction / error correction Introduces Quantum Signal Processing for single qubit rotations. I also briefly discuss how to use LCU to implement a polynomial ... This segment describes what a non-coherent binary FSK receiver does, how it differs from the coherent binary FSK receiver, ... Here I review Binary Coherent FSK, and show how we use our probability of error formulas to compute an exact expression for the ... This segment writes the nearest neighbor approximation, which ignores neighbors further apart then d_min, the distance between ...

This video describes how diversity combining methods, and multiple-input multiple-output (MIMO) systems allow wireless systems ... Second Lecture of my lecture series talking about LCU, formalizing the I discuss the probability of symbol and bit error in M-ary Noncoherent FSK, using Proakis & Salehi as a reference. In particular I go ... Friday 27th June, 2025 Session ❯The Art of

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ESE 471: Block Encoding and Decoding with Example
Block Encoding / QSP Lecture 1
ESE 471 Gray Coding is a Trick to Make Fewer Bit Errors
ESE 471: Example Union Bound M=8 Box QAM
ESE 471: Overview of Forward Error Correction
Block Encoding / QSP Lecture 3
ESE 471 Digital Communications Theory: Binary FSK: Noncoherent Receiver
ESE 471 Binary FSK Coherent Receiver
ESE 471: The BFF for Symbols: Nearest neighbor approximation
ESE 471: MIMO: Don't put all of your signals in one channel
Block Encoding / QSP Lecture 2
ESE 471 Digital Communication Theory: M-ary Noncoherent FSK Probability of Error
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ESE 471: Block Encoding and Decoding with Example

ESE 471: Block Encoding and Decoding with Example

This segment describes how to perform

Block Encoding / QSP Lecture 1

Block Encoding / QSP Lecture 1

First of my Yale Lecture Series on

ESE 471 Gray Coding is a Trick to Make Fewer Bit Errors

ESE 471 Gray Coding is a Trick to Make Fewer Bit Errors

This video describes Gray

ESE 471: Example Union Bound M=8 Box QAM

ESE 471: Example Union Bound M=8 Box QAM

This segment works an example of finding the probability of symbol error and probability of bit error, for a made-up constellation I ...

ESE 471: Overview of Forward Error Correction

ESE 471: Overview of Forward Error Correction

In this segment I provide an overview of forward error correction / error correction

Block Encoding / QSP Lecture 3

Block Encoding / QSP Lecture 3

Introduces Quantum Signal Processing for single qubit rotations. I also briefly discuss how to use LCU to implement a polynomial ...

ESE 471 Digital Communications Theory: Binary FSK: Noncoherent Receiver

ESE 471 Digital Communications Theory: Binary FSK: Noncoherent Receiver

This segment describes what a non-coherent binary FSK receiver does, how it differs from the coherent binary FSK receiver, ...

ESE 471 Binary FSK Coherent Receiver

ESE 471 Binary FSK Coherent Receiver

Here I review Binary Coherent FSK, and show how we use our probability of error formulas to compute an exact expression for the ...

ESE 471: The BFF for Symbols: Nearest neighbor approximation

ESE 471: The BFF for Symbols: Nearest neighbor approximation

This segment writes the nearest neighbor approximation, which ignores neighbors further apart then d_min, the distance between ...

ESE 471: MIMO: Don't put all of your signals in one channel

ESE 471: MIMO: Don't put all of your signals in one channel

This video describes how diversity combining methods, and multiple-input multiple-output (MIMO) systems allow wireless systems ...

Block Encoding / QSP Lecture 2

Block Encoding / QSP Lecture 2

Second Lecture of my lecture series talking about LCU, formalizing the

ESE 471 Digital Communication Theory: M-ary Noncoherent FSK Probability of Error

ESE 471 Digital Communication Theory: M-ary Noncoherent FSK Probability of Error

I discuss the probability of symbol and bit error in M-ary Noncoherent FSK, using Proakis & Salehi as a reference. In particular I go ...

The Art of Block Encoding with Dr. Guilermo Alonso-Linaje ❯ 2025 QUANTUM PROGRAM

The Art of Block Encoding with Dr. Guilermo Alonso-Linaje ❯ 2025 QUANTUM PROGRAM

Friday 27th June, 2025 Session ❯The Art of